The purpose of this technology is to combat climate change on a global scale by permanently removing CO₂ from the atmosphere, while also generating valuable by-products that can benefit multiple industries and promote sustainability across sectors.
Unlike conventional carbon capture methods that rely on heat, pressure, or geological storage, Trace Xero's technology operates under ambient conditions to decompose CO₂ into solid graphitic carbon. Our approach eliminates the need for CO₂ storage.
At TraceXero, our CCU Technology captures CO₂, SOx, and NOx from industrial flue gas, preventing harmful emissions from entering the atmosphere. A heat exchanger first cools the flue gas, optimizing it for efficient processing. The cooled gas then enters our reactor, where these pollutants are absorbed and decomposed into their elemental forms. The captured CO₂ is broken down into Graphitic Carbon and Oxygen. This process not only reduces industrial emissions but also transforms waste gases into valuable resources, reinforcing our commitment to cleaner air and a sustainable, Net-Zero future.
At TraceXero, our BECCS process transforms Biomass into heat energy while efficiently capturing both CO₂ and Particulate Matter (PM) generated during combustion. Instead of releasing these emissions into the atmosphere, our advanced technology instantly captures them, preventing environmental harm.
The captured CO₂ is then decomposed into Graphitic Carbon and Oxygen. By effectively removing both CO₂ and PM, our closed-loop system not only supports renewable energy production but also converts waste into valuable resources, advancing global Net-Zero targets.
At TraceXero, our Large-Scale Direct Air Capture Technology employs high-intensity blowers to draw ambient air through our advanced capture units, efficiently extracting CO₂ directly from the atmosphere. Once captured, the CO₂ is decomposed into Graphitic Carbon and Oxygen, transforming a harmful greenhouse gas into valuable resources.
This innovative process not only actively reduces atmospheric carbon footprint but also repurposes it for commercial and industrial use, supporting the global transition toward Net-Zero emissions and a more sustainable future.